S R Ludwig

Previous studies have suggested that the R locus of maize is responsible for determining the temporal and spatial pattern of anthocyanin pigmentation in the plant. In this report we demonstrate that three members of the R gene family, P, S, and Lc, encode homologous transcripts 2.5 kilobases in length. The structure of one R gene, Lc, was determined by sequencing cDNA and genomic clones. The putative Lc protein, deduced from the cDNA sequence, is composed of 610 amino acids and has homology to the helix-loop-helix DNA-binding/dimerization motif found in the L-myc gene product and other regulatory proteins. It also contains a large acidic domain that may be involved in transcriptional activation. Consistent with its proposed role as a transcriptional activator is our finding that a functional R gene is required for the accumulation of transcripts of at least two genes in the anthocyanin biosynthetic pathway. We discuss the possibility that the diverse patterns of anthocyanin pigmentation conditioned by different R genes reflect differences in the R gene promoters rather than their gene products.

The genome of Arabidopsis thaliana (Linnaeus) Heynhold was shown to contain an alpha-tubulin gene family consisting of at least four genes and/or pseudogenes. The primary structure of a transcribed alpha-tubulin gene was determined. A comparison of the predicted amino acid sequence of the A. thaliana alpha-tubulin with the predicted amino acid sequences of alpha-tubulins of Chlamydomonas reinhardtii, Stylonychia lemnae, and Homo spaiens reveals a high degree of homology; 90%, 87%, and 83% identity, respectively. Thus, a plant alpha-tubulin exhibits a high degree of homology to the alpha-tubulins of protists and animals. The coding sequence of the A. thaliana alpha-tubulin gene is interrupted by four introns, which occur at positions different from those of the less numerous introns of C. reinhardtii and rat alpha-tubulin genes. S1 nuclease mapping data showed that transcription is initiated 99 +/- 1 base pairs upstream from the translation initiation codon. Both 5' and 3' noncoding gene-specific probes were used to examine the expression of the alpha-tubulin gene in leaves, roots, and flowers by hybridization to total RNA isolated from these tissues. The results showed that the alpha-tubulin gene was transcribed in all three tissues.

Defects of insulin receptor binding and tyrosine kinase activity have been described in genetically diabetic (db/db) and obese (ob/ob) mice. To determine if these changes were related to an abnormality in insulin receptor mRNA expression or structure of the receptor gene, we quantitated receptor mRNA from db/db and ob/ob homozygous, heterozygous (db/x, ob/x) and unaffected [db(x/x), ob(x/x)] mice and also analyzed restriction fragment length patterns of genomic DNA. Northern blot analysis of insulin receptor mRNA in livers from each of the genotypes revealed two major species of 7.5 and 9.5 kilobases. In contrast to known decreased receptor number in various tissues of ob/ob and db/db mice, quantitation of liver insulin receptor mRNA revealed that both homozygous affected strains had 2-fold or more increased levels of both major mRNA species compared to unaffected control groups. (P less than 0.05). Restriction fragment length analysis revealed no major insertion or deletion mutations in either the db/db or ob/ob insulin receptor gene. From the number and size of the fragments generated by this analysis, the minimal size of the mouse insulin receptor gene was calculated to be 97 kilobases, and the minimal number of exons was 16. These data indicate that the insulin receptor gene in ob/ob and db/db mice exhibits no major structural abnormality. Decreases in insulin receptor binding and/or kinase activity in affected mice appear to be due to a defect at the posttranscriptional level and occur despite increased levels of receptor mRNA.